Selectable Lens Button for a Hazard Detector and Method Therefor

1. A hazard detector comprising: a front casing that is coupleable with a back plate to define a housing having an interior region within which one or more components of the hazard detector are contained; a passive infrared sensor device disposed within the interior region and positioned to face a room within which the hazard detector is positioned, the passive infrared sensor device having a field of view into the room such that objects or individuals present in the room and within the field of view are detectable by the passive infrared sensor device, the passive infrared sensor device being communicatively coupled with a circuit board of the hazard detector so as to provide information thereto and/or receive information therefrom; a button cap component coupled with a button portion of the front casing such that the button cap component is pressable by a user to effect axial movement of the button portion of the front casing to cause the button portion to contact a switch positioned therebehind so that input is provided to the hazard detector by the user, the button cap component having a first side facing the room and a second side opposite the first side; wherein the button cap component comprises a Fresnel lensing component formed integrally therewith, wherein the Fresnel lensing component is positioned axially in front of the passive infrared sensor device to direct infrared radiation onto the passive infrared sensor device, the Fresnel lensing component being formed on said second side of the button cap component so as to be hidden from external view.

2. The hazard detector of claim 1 , wherein the button cap component comprises a visually pleasing contour, and wherein the Fresnel lensing component is contour-matched to a contour of the second side of the button cap component.

3. The hazard detector of claim 1 , wherein the button cap component is a relatively large component, and wherein the button cap component is positioned roughly centrally relative to the front casing so as to be easily accessible to a user.

4. The hazard detector of claim 1 , further comprising a lighting component positioned axially behind the button cap component and coupled therewith, the lighting component being configured to disperse light circumferentially around the button cap component so as to provide a visual halo effect relative thereto.

5. The hazard detector of claim 4 , further comprising a flexible circuit board positioned axially behind the lighting component, the flexible circuit board being electrically coupled with a plurality of lights that operationally couple with the lighting component so as to disperse light circumferentially around the button cap component, the flexible circuit board being further communicatively coupled with the circuit board of the hazard detector so as to provide information thereto and/or receive information therefrom.

6. The hazard detector of claim 1 , wherein the Fresnel lensing component increases the field of view of the passive infrared sensor device into the room such that the field of view comprises a viewing angle of up to 150 degrees.

7. The hazard detector of claim 1 , wherein the Fresnel lensing component increases the field of view of the passive infrared sensor device into the room such that the field of view is approximately 8.8 meters at a distance of approximately 10 feet axially in front of the hazard detector.

8. The hazard detector of claim 1 , wherein the button portion is integrally formed with the front casing and is axially movable relative thereto, the button portion being axially biased against a bottom surface of the front casing in an un-deflected state.

9. A hazard detector comprising: a front casing that is coupleable with a back plate to define a housing having an interior region within which one or more components of the hazard detector are contained; a passive infrared sensor device disposed within the interior region and positioned to face a room within which the hazard detector is positioned, the passive infrared sensor device having a field of view into the room such that objects or individuals present in the room and within the field of view are detectable by the passive infrared sensor device; and a Fresnel lensing component disposed on an exterior of the front casing and positioned in front of the passive infrared sensor device to direct infrared radiation onto the passive infrared sensor device; wherein said Fresnel lensing component is configured to be inwardly pushable by a user to cause contact with a switch positioned therebehind so that input is provided to the hazard detector by the user.

10. The hazard detector of claim 9 , wherein the Fresnel lensing component comprises a visually pleasing contour that matches a contour of the exterior surface of the hazard detector facing the room in which the hazard detector is positioned.

11. The hazard detector of claim 9 , wherein the Fresnel lensing component is a relatively large component that is positioned roughly centrally relative to the front casing so as to be easily accessible to a user.

12. The hazard detector of claim 9 , further comprising a lighting component positioned axially behind the Fresnel lensing component and coupled therewith, the lighting component being configured to disperse light circumferentially around the Fresnel lensing component so as to provide a visual halo effect relative thereto.

13. The hazard detector of claim 12 , further comprising a flexible circuit board positioned axially behind the lighting component, the flexible circuit board being electrically coupled with a plurality of lights that are configured to illuminate the lighting component so as to disperse light circumferentially around the Fresnel lensing component.

14. The hazard detector of claim 9 , wherein the Fresnel lensing component is coupled with a button portion of the front casing such that inward pushing of the Fresnel lensing component causes the button portion of the front casing to contact the switch.

15. The hazard detector of claim 14 , wherein the button portion is integrally formed with the front casing such that the button portion is axially biased against a bottom surface of the front casing and is axially movable relative thereto.

16. A method of operating a hazard device comprising: providing a hazard device comprising: a front casing that is coupleable with a back plate to define a housing having an interior region within which one or more components of the hazard detector are contained; a passive infrared sensor device disposed within the interior region and positioned to face a room within which the hazard detector is positioned, the passive infrared sensor device having a field of view into the room such that objects or individuals present in the room and within the field of view are detectable by the passive infrared sensor device; a button cap component coupled with a button portion of the front casing such that the button cap component is pressable by a user to effect axial movement of the button portion of the front casing to cause the button portion to contact a switch positioned therebehind so that input is provided to the hazard detector by the user, the button cap component having a first side facing the room and a second side opposite the first side; and wherein the button cap component comprises a Fresnel lensing component formed integrally therewith, wherein the Fresnel lensing component is positioned axially in front of the passive infrared sensor device to direct infrared radiation onto the passive infrared sensor device, the Fresnel lensing component being formed on said second side of the button cap so as to be hidden from external view; and performing one or more actions with the hazard detector in response to the user pressing the button cap component of the hazard detector.

17. The method of claim 16 , wherein the one or more actions comprises quieting an alarm of the hazard detector.

18. The method of claim 16 , wherein the hazard detector further comprises a lighting component positioned axially behind the Fresnel lensing component and coupled therewith, the lighting component being configured to disperse light circumferentially around the Fresnel lensing component so as to provide a visual halo effect relative thereto.

19. The method of claim 18 , further adjusting a color of the light dispersed circumferentially around the Fresnel lensing component from a first color to a second color.

20. The method of claim 16 , wherein the button portion is integrally formed with the front casing such that the button portion is axially biased against a bottom surface of the front casing and is axially movable relative thereto.